AQA A Level Physics

Revision Notes

A LevelPhysicsAQARevision Notes9. Astrophysics9.3 Cosmology9.3.8 Exoplanets

9.3.8 Exoplanets

Exoplanets

  • An exoplanet is:

A planet found outside our Solar System, in orbit around another star

  • Exoplanets are difficult to detect directly because:
    • Light from the host star is much brighter than the reflected light from the planet
    • They subtend extremely small angles compared to the resolution of telescopes
  • Astronomers must use indirect detection techniques to observe exoplanets, such as:
    • Transit method
    • Radial velocity method

The Transit Method

  • When a planet passes in front of a star (as seen from Earth), some of the light from the star is obscured
  • Therefore, the total amount of light reaching the Earth is reduced
  • By measuring the apparent magnitude, or intensity of light received from the star over time, a light curve can be obtained

Light Curve using the Transit Method

9-3-8-transit-method-exoplanet

The transit method can tell us about both the size of the exoplanet and its orbital period

  • The dip in brightness can be used to determine the size of the planet
  • The duration of the dip can be used to determine the orbital period of the planet
  • Some of the limitations of this technique are:
    • The accuracy can be reduced if the Earth, planet and star are not aligned in the same plane
    • Only planets with a short orbital period can be detected

The Radial Velocity Method

  • As a planet orbits its host star, they both orbit around a common centre of mass
  • During the orbit, the star will move slightly towards, or away from the Earth as the planet moves to different positions in the orbit
    • The line spectrum of the star will show blueshift when it moves towards the Earth, then redshift when it moves away

Doppler Shift of an Exoplanet

9-3-8-radial-velocity-method

How to determine the orbital period of an exoplanet using the radial velocity method

  • This causes very small, but measurable, periodic shifts in the wavelength of the light received from the star
    • The time period of the planet’s orbit is equal to the time period of the Doppler shift
  • The main limitation of this technique is that 
    • Low-mass, or Earth-like, planets do not cause as much 'wobble' as high-mass planets since they have a greater gravitational pull on the star

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    Katie M

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    Katie has always been passionate about the sciences, and completed a degree in Astrophysics at Sheffield University. She decided that she wanted to inspire other young people, so moved to Bristol to complete a PGCE in Secondary Science. She particularly loves creating fun and absorbing materials to help students achieve their exam potential.